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Learner Book Answers Cambridge Lower Secondary Science
7 Teacher’S Resource
Computer science (Roots Ivy International University)
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CAMBRIDGE LOWER SECONDARY SCIENCE 7: TEACHER’S RESOURCE
Learner’s Book
answers
Unit 1 Cells
2
Topic 1.1 Plant cells
Answers will depend on any difficulties that
the learner had.
Getting Started
Learners discuss and share ideas on the size of cells,
how they can be seen and what they may look like.
Getting Started
Questions
1
2
Topic 1.2 Animal cells
They are chloroplasts. They are green because
they contain chlorophyll. This is where
photosynthesis happens, where food is made.
A cell wall is on the outside of the cell, but a
cell membrane is further in.
A cell wall is made of cellulose, but a cell
membrane is not.
Cell wall, cellulose, cell membrane, cytoplasm
and chloroplasts.
Questions
1
A: plant cells; B: plant cells; C: animal cells. A and
B have cell walls and regular shapes, whereas C
does not have cell walls and is irregular in shape.
2
Answers will depend on how the learners made
their plant cell model. They should suggest:
A cell wall is strong and stiff, but a cell
membrane is flexible.
Removing the part of the model that
represents the cell wall, while keeping the cell
membrane in place.
A cell wall is much thicker than a cell membrane.
A cell wall helps to hold the plant cell in
shape, but a cell membrane does not.
Removing the parts representing chloroplasts.
Removing the part representing the sap
vacuole.
A cell membrane helps to control what goes in
and out of the cell, but a cell wall does not.
Think like a scientist: Making a model
of a plant cell
1
2
Answers will depend on the model that the
learner has made and those that other learners
have made.
Topic 1.3 Specialised cells
Questions
1
Cell membrane, cytoplasm
2
They do not have cell walls or large sap vacuoles.
Answers will depend on the model that the
learner has made. Look for answers that
make statements about how the model does
represent a plant cell, and also statements
about how it is not a perfect representation.
Think like a scientist: Looking at plant
cells through a microscope
1
1
The onion cells are not green because they do
not contain chloroplasts or chlorophyll. Onion
cells are inside the onion and do not get any
light, so there is no point in having chloroplasts.
Cambridge Lower Secondary Science 7 – Mary Jones, Diane Fellowes-Freeman & Michael Smyth
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CAMBRIDGE LOWER SECONDARY SCIENCE 7: TEACHER’S RESOURCE
Activity: Structure and function in
animal cells
Name
of cell
Function
of cell
Specialised How this
structure
helps the cell
to carry out
its function
Red
blood
cell
Transports has
haemoglobin
oxygen
haemoglobin carries
in its
oxygen
cytoplasm
is very small it can
squeeze
through tiny
capillaries
has no
nucleus
more
room for
haemoglobin,
so it can carry
more oxygen
Neurone Carries
has a long
electrical axon
signals
from one
part of the
body to
another
allows
electrical
signals to
travel long
distances
very quickly
3
4
Name
of cell
Function
of cell
Specialised
structure
How this
helps the
cell to
carry out
its function
Root
hair cell
Absorbs
water and
mineral
ions from
the soil
has a long
extension
from one
side
allows water
to move
easily from
the soil into
the cell
has many
chloroplasts
containing
chlorophyll
chlorophyll
absorbs
energy
from
sunlight
which the
plant uses
to make
food
Palisade Make
cell
food by
photosynthesis
Topic 1.4 Cells, tissues and
organs
brain
has
dendrites
Ciliated Stops
cell
bacteria
and dust
getting
into the
lungs
Activity: Structure and function in
plant cells
these pick
up electrical
signals from
other nerve
cells
has tiny,
thread-like
cilia along
one edge
lungs
heart
cilia wave
in unison,
sweeping
mucus,
in which
bacteria
and dust
are trapped,
away from
the lungs
They are underground where they get no
sunlight, so they cannot photosynthesise.
There is therefore no need for them to have
chloroplasts.
Cell wall, cell membrane, cytoplasm.
stomach
intestines
Questions
1
The ciliated epithelium tissue sweeps mucus,
containing dust particles and bacteria, away
from the lungs.
2
Any sentences using the words appropriately
are acceptable.
3
A group of similar cells is called a tissue.
An organ is a structure made of many
different tissues.
2
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An organ system is a group of organs that
carry out a particular function.
C: nucleus: controls the activities of the cell.
D: cell membrane: controls what goes in and
out of the cell.
An organism is a living thing. It may contain
many different organ systems, organs and
tissues.
Check your progress
E: mitochondrion: where energy is released
from nutrients.
1.4 a
Neurone
Ciliated cell
b
It transmits electrical impulses.
b
Root hair cell
c
c
Palisade cell
It has a long axon that allows the
impulses to travel long distances very
quickly.
d
Nervous system
1.1 a
1.2 a
A = cell membrane
B = cytoplasm
b
1.5 a
Tissue
C = nucleus
b
Organ
D = mitochondrion
c
Organ system
It does not have a cell wall or a sap
vacuole.
1.3 A: chloroplast, where photosynthesis takes
place.
B: cell wall: holds the cell in shape.
Unit 2 Materials and their structure
Topic 2.1 Solids, liquids and gases
Getting started
1
Accept any two correct answers for each of:
solid, e.g. wood and bread; liquid, e.g. water
and cooking oil; gas, e.g. air and oxygen.
2
Complete the table using the items in
question 1. This will depend on what the
learners choose. An example is given in the
Learners book. Concentrate on the reasons
for the choice.
Questions
3
1
Solid, liquid and gas.
2
Gas
3
Solid
4
Solids: keep the same shape; take up the same
amount of space; keep the same volume;
cannot be compressed (squashed) or poured.
5
They can be poured; they take the shape of
the container.
6
They can be poured; they take the shape of
the container.
7
They can be compressed.
Think like a scientist: Modelling the
particles in solids, liquids and gases
1
For a solid: we had to form rows with each
of us touching the people next to us and the
people in front and behind. We had to stay in
our place. We could only vibrate.
For a liquid: we were close together but not in
rows. We had to touch all the people next to us
at all times. We could move past one another
but had to stay in touch.
For a gas: we were spread out around the
room and not touching anyone else. We could
move freely.
This answer will depend on what they did.
They should mention touching or not
touching as appropriate and being in an
appropriate position.
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2
In solids, the particles are arranged in regular
rows touching each other. The particles are
tightly packed together and can only vibrate.
In liquids the particles are arranged so that
they are touching one another but are not in
a regular pattern. The particles can move past
one another and change their positions.
In gases, the particles are arranged so that
they are far apart. There is no pattern and the
particles are free to move and to spread out.
Think like a scientist: Measuring the
temperature when you heat water
1
The graph should be plotted accurately
with axes labelled correctly with correct
units. Credit the use of pencil and ruler and
appropriate use of graph paper.
2
When we heated the water, the temperature
increased. The longer we heated the water, the
more the temperature rose. The increase in
temperature was not at a constant/steady rate.
The temperature did not increase by the same
amount each minute. It increased quickly at the
start, but then slowed down. The description
should include the relationship between the
time and the temperature with comment about
the rate of increase in temperature.
3
When the water was boiling, its temperature
remained at 100 °C, which is its boiling point.
4
This happens because the liquid water is
changing into a gas, which is lost into the air, so
the heat energy is being used for this, and not
for increasing the temperature of the water.
5
So that it is measuring the temperature of the
water and not the temperature of the beaker,
which is in closer contact with the Bunsen burner.
Think like a scientist: Particle theory
1
2
The parts of the sponge that are solid have the
particles arranged like a solid: in regular rows
and packed so that they are touching each
other. However, the solid part of the sponge
is arranged so that it has gaps in it and these
gaps are filled with air. Since air is a gas, the
particles have a lot of space between them and
when you press down on a sponge it is the air
which is being compressed, not the solid.
Particle theory explains the properties of
solids, liquids and gases well. It accounts
for the fact that solids and liquids cannot be
compressed because there is no space for the
particles to squeeze closer together and the
fact that gases can be compressed because the
particles are spread far apart.
3
The strengths of particle theory are that it
accounts for the properties of solids, liquids
and gases and means you can explain what is
happening.
4
Credit any weakness suggested that is justified.
This question is a challenge and some learners
will not be able to find any weaknesses. In
discussion the main points might be that: there
is no account of the size and/or shape of the
particles, no account of the spaces between
the particles in solids and liquids.
Reflection
This will depend on what they found. It may be to
do with reading the thermometer or measuring the
volume of water. They should mention safety glasses
and the danger from steam. They could mention
moving around while carrying out the practical task.
Topic 2.3 Explaining changes
of state
Getting started
1
Condensing: gas to liquid.
Topic 2.2 Changes of state
Activity 2.2.1: Which change of state?
Freezing: liquid to solid.
Melt: from solid to liquid.
Questions
Condense: from gas to liquid.
1
When the solid is heated, energy is transferred
to the particles and they vibrate more. This
takes up more space, so the solid expands.
2
The particles in both solids and liquids are
touching each other with no spaces between
them, so they cannot be squeezed into a
smaller space.
Boil: from liquid to gas.
Questions
4
Melting: solid to liquid
1
28 cm3; 54 cm3; 82 cm3
2
A
24 °C
B
15 °C
C
29 °C
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3
The particles in liquids and gases are free to
move past each other so that when they are
poured, they can flow.
4
The particles in a liquid can move past
each other and are held by weak attractive
forces. When a liquid is heated, heat energy
is transferred to the particles, so that they
can move more. Some particles have enough
energy to escape into the air as a gas.
5
The particles in a liquid have enough energy
to move past one another. If the liquid is
frozen, some of the heat energy the particles
have is transferred to the surroundings. This
means that the particles have less energy and
cannot move. The liquid has been changed to
a solid.
6
When the particles of steam move around
the bathroom, some hit the cold surface
of the mirror. Some of the heat energy of
the particles is transferred to the mirror so
the particles of steam have less energy and
condense to form a liquid.
7
A
Melting
B
Boiling (accept evaporating)
C
Freezing
D Condensing
3
Description should cover particles of a gas
moving around the room and coming into
contact with cold surfaces. It should include
energy being transferred from the gas particles
to the surface, the particles losing energy and
the particles slowing down. Particles are now
unable to move apart and can only side past
one another, forming a liquid. Discussion of
model as above.
4
Description should cover particles in a
container touching one another, but being
able to slide past one another. When placed
in a freezer, heat energy from the particles is
transferred to the freezer and the particles now
do not have enough energy to slide past one
another. A solid has been formed. Discussion
of model as above.
Topic 2.4 The water cycle
Questions
1
Rain, hail and snow.
2
When water vapour in the clouds cools,
it condenses and forms liquid water. This
becomes too heavy to be held in the clouds
and falls as rain.
3
Liquid water in a pool on the road is made
up of particles that are touching one another,
but are not in a fixed pattern. The particles are
able to move past each other. As the particles
have energy transferred to them from the
surroundings, as the sun comes out and/or the
temperature increases, they have more energy
and can move more. Some have enough energy
to overcome the weak forces holding them
together and escape by evaporating into the
atmosphere as water vapour.
4
This answer will depend on local conditions.
It could be from a well, a reservoir, rivers
or desalination plant. Encourage learners
to include detail in their answers, and think
about where and how this water reaches them.
5
Suggestions may include the building of
underground boreholes and wells; storing
water in reservoirs; desalination plants; water
treatment plants to return water to a useable
state; moving from one area to another when
there is no more water.
6
Accept any sensible suggestions, such as
for our blood, digestive system, respiratory
system, etc.
Think like a scientist: Modelling
changes of state
1
2
5
Description should cover learners standing
in regular rows touching each other and
vibrating. When heated the learners
should vibrate more until they can move
past one another, but should still remain
touching one another. The discussion
about if they were a good or a bad model
will depend on what they did. Look for
sentences such as: we did …, which was a
good model because …
Description should cover learners standing
together touching one another, but being able
to move past one another. The more strongly
they are heated, the more they should move,
until they can break away from the weak
forces holding them together and form a gas.
The energy transferred is so much that they
should be able to demonstrate boiling with
learners changing places very rapidly at the
surface. Discussion of model as above.
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7
Washing (ourselves and our clothes, houses,
cars); flushing the toilet; watering plants and
gardens or in agriculture; manufacturing
things such as clothes, chemicals, processed
food. Credit any sensible suggestions.
solid like sodium metal. Sodium chloride is
edible, but sodium metal is not.
2
Sodium chloride is a solid, but chlorine is a
gas. Sodium chloride is white, but chlorine gas
is greenish yellow. Sodium chloride is edible,
but chlorine is not.
3
Sodium and chlorine
Topic 2.5 Atoms, elements and
the periodic table
4
Hydrogen and sulfur
5
Magnesium and oxygen
Getting started
6
The learner has written the non-metal first in
the name; the metal comes first and the name
of the non-metal changes. The correct name is
calcium sulfide.
7
Calcium, nitrogen and oxygen
8
Magnesium, carbon and oxygen
9
Lithium, sulfur and oxygen
8
1
Credit efforts to list the ways in which water is
used and estimates of how much is used.
The diagram should have particles of similar
size and be drawn so that they are in regular
rows. Particles should be touching one another.
When the solid melts, energy is transferred
from the surroundings to the particles and
they can vibrate more. When they have enough
energy they can overcome the forces holding
them in place and slide past other particles.
2
Heat it.
10 K, O2, Al, Ca and H2 are elements because
each contains only one type of atom.
NaCl and CaCl2 are compounds because each
contains more than one type of atom.
Questions
1
Atoms are tiny pieces or particles of matter.
2
There are 94 different kinds of naturally
occurring atoms, so there are 94 different
naturally occurring elements.
11 a
2
b
2
12 a
b
Hydrogen and oxygen
Two atoms of hydrogen combine with one
atom of oxygen.
3
Mg is magnesium; Be is beryllium; Li is
lithium and N is nitrogen.
4
Aluminium is Al; boron is B; fluorine is Fl and
potassium is K.
5
Hydrogen
13 CO is called carbon monoxide to prevent
confusion because there is another gas, carbon
dioxide or CO2, that is made from carbon and
oxygen.
6
Calcium
14 a
7
Choose any two from sodium, aluminium,
silicon, phosphorous, sulfur, chorine and
argon.
8
Magnesium oxide
b
Sodium chloride
c
Calcium chloride
15 Oxygen and hydrogen
Ne and Ar
16 Lithium hydroxide
Topic 2.6 Compounds and
formulae
6
17 Three
Questions
Topic 2.7 Compounds and mixtures
1
Getting started
Any two of: sodium chloride does not have
a shiny surface like sodium metal. Sodium
chloride is white, not silver like sodium metal.
Sodium chloride is formed of crystals not
Elements: nitrogen, sodium, O2 and K.
Compounds: carbon dioxide, calcium chloride,
CaO, CH4 and H2O.
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Think like a scientist: Using iron and
sulfur
1
2
a
A mixture of iron and sulfur appears light
grey/yellow. It is a powder.
2.3 Any two from: The water particles gain
energy from the warm air and they are able to
escape the forces holding them together. They
become water vapour, a gas, and are able to
move into the air. They evaporate.
b
It is a solid mass and cannot be poured.
2.4 a
The iron cannot be removed from the iron
sulfide using a magnet because the iron atoms
have bonded with the sulfur atoms and are no
longer magnetic.
b
Questions
The particles lose energy to the
surroundings. This means that they
cannot move so much. They cannot
slide past one another, but stay in a
fixed place. They only have the energy
to vibrate.
1
Nitrogen
2
Four
b
Condensation
3
Carbon dioxide
c
Evaporation
4
Bicarbonate; calcium and chloride. Ignore the
dry residue at 180 °C.
2.5 a
Think like a scientist: Is water really a
mixture?
1
Answer should include discussion of the
particles in the liquid water having weak forces
holding them together; the particles being able
to slide past one another, but once they have
more energy when the water is heated, they
gain enough energy to overcome these forces
and so some particles can escape from the
surface of the water as a gas and move into
the air around the evaporating dish.
2
Solid crystals
3
It was dissolved in the water.
4
A mixture of water and other substances.
We know this because, once all the water had
evaporated, these solids were left so we know
they were there, but we couldn’t see them
because they were dissolved.
5
To protect our eyes because as the water
evaporates there is often some ‘spitting’ from
the dish.
2.6 a
Precipitation
Give credit for use of a sharp pencil and
ruler; appropriate scales for the size of
graph paper; appropriately labelled axes;
accurate plots.
b
Do not credit if the 2-minute plot is
taken into account. The line of best fit
should be a fairly smooth curve.
c
The reading of 19 °C at 2 minutes.
d
Zara misread the thermometer.
e
The temperature remains fairly constant.
f
This is because the liquid is boiling.
All the energy from the heat source
is being used to change the liquid to
a gas.
2.7 a
D
b
A or C
c
B
d
A
i
Mg
ii
O
iii
H
Check your progress
iv
Ca
2.1 Solids
v
B
i
Carbon
2.2 a
7
i and iii
Gas
2.8 a
b
b
Solid
ii
Sodium
c
Liquid
iii
Potassium
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c
iv
Chlorine
v
Silicon
d
They use symbols because it saves time
and space, it is a useful shorthand way
of referring to the elements.
There are many elements that begin
with the same letter, such as
carbon, chlorine, calcium and copper,
so we need to use a second letter to
distinguish them from one another.
Unit 3 Forces and energy
Topic 3.1 Gravity, weight and
mass
3
A
Getting started
1
Makes it fall/pulls it down/keeps it on the
desk/’requires force (or energy)’ to lift it.
2
The newton, N, is a unit of weight.
3
The kilogram, kg, is a unit of mass.
Earth
D
B
Questions
1
Circle drawn with at least four arrows; all
arrows would pass approximately through the
centre of the circle if continued; arrows are
acceptable inside or outside the circle.
C
4
They are wrong; any object with mass has
gravity; the Moon has a (relatively) large mass
so will exert a force of gravity.
5
C
W
2
People at the South Pole are pulled towards
the centre of the Earth. They are pulled
‘down’ onto the ground by gravity; accept
this idea if drawn on the diagram for
question 1.
6
8000 N
7
40 000
_____
4 = 10 000 N
8
a
The weight is greater than the contact
force; the force downward is greater
than the force upward, so there will be
downward movement.
b
When the contact force becomes equal
to the weight, forces (down and up) will
balance/cancel out, so no movement up
or down.
a
75 × 10 = 750 N
b
8500
____
10 = 850 kg
9
8
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10 a
Jupiter
b
Saturn
Topic 3.2 Formation of the Solar
System
c
25 × 3.7 = 92.5 N
Getting started
d
It would be the same – mass is the
quantity of matter in an object, so mass
does not depend on the strength of
gravity.
1
Large mass
2
Sun
3
Sun
11 Weight makes the scales work as it is the force
of gravity on your body pushing down on
the scales. Mass causes weight, so both are
required to make the scales work.
12 Gravity on Earth is greater than gravity on the
Moon, so to go away from Earth needs more
force to overcome the greater weight. To come
back to Earth needs less force to overcome the
smaller weight from the Moon and the Earth’s
gravity helps to pull the spacecraft back.
(Common misconception here is that going to
the Moon is ‘up’ and coming back to Earth is
‘down’.)
Questions
1
All the planets in the Solar System orbit the
Sun in the same direction.
2
Idea that the orbits are all on the same level or
plane/not tilted relative to each other.
3
Nebula
4
Gravity
Think like a scientist: Using models
1
Possible answers include: it is not possible to
do an experiment (to replicate the formation
of the Solar System) in a lab; an experiment
would take up too much space; an experiment
would be too difficult to set up.
2
A limitation
3
a
Both Venus and Uranus spin on their axes
in the opposite direction to all the other
planets.
b
If the cloud of dust and gas came
together in a flat circle, everything would
have been going around in the same
direction. Venus/Uranus spinning in the
opposite direction seems to contradict
this.
Activity: Mass or weight?
9
Mass...
Weight...
is measured in
kiograms, kg.
of an object is affected
by the strength of
gravity on a planet.
is not affected by
gravity.
is measured in
newtons, N.
is the quantity of
matter in an object.
of an object decreases
as the object goes
further away from Earth.
can be measured in
grams, g.
is the force needed to
lift an object.
is the property of a
planet that makes the
planet have gravity.
is equal to the contact
force on a level surface
that is not moving.
4
Most, but not all, of the evidence supports the
model; the model that is used has limitations.
Think like a scientist: Linking weight
and mass
Topic 3.3 Movement in space
1
As the mass gets bigger, the weight gets bigger.
When the mass doubles, the weight doubles.
Getting started
2
It is not exactly 10 N; answer in range 9.5–9.9 N.
3
The differences are very small; both values
rounded to the nearest whole number are 10;
10 is easier to multiply by.
1
Mercury, Venus, Earth, Mars, Jupiter, Saturn,
Uranus, Neptune, (Pluto).
2
The Moon
Questions
1
Towards the (centre of the) Sun
2
Gravity from the Sun
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3
Jupiter (as it has the second largest mass)
4
Vacuum
5
There is no air resistance acting on it in space;
air resistance acts on Earth and would be too
great to allow the spacecraft to reach this speed.
4
The water will be at its lowest level at low tide;
this may not be deep enough for some boats.
6
Gravity only
5
7
Speed of the planet increases as it gets closer
to the Sun, as the force of gravity (from the
Sun) on the planet increases.
When there is a full Moon or new Moon then
the Sun, Moon and Earth are in line; the pull
of gravity or tidal force will come from both
the Sun and Moon; the tidal force will be
stronger or more force pulling on water.
6
Tidal range of 2.0 m will be 1.0 m higher and
1.0 m lower than the average maximum depth
so 5.0 + 1.0 = 6.0 m.
Activity: Planet speeds
1
As the distance from the Sun increases, the
speed of orbit of the planets decreases.
2
Easier to see any trend or pattern in the results;
easier to see any result that doesn’t fit the pattern.
3
As distance from the Sun increases, the
force of gravity (from the Sun on the planet)
decreases; as the force on the planet decreases,
its speed decreases.
4
These are not continuous data or these are
discrete data; there are no data in between the
values and no need to read off other values.
3
Predictions
2
Observations
3
Conclusion
4
Uranus moving further away from the Sun
contradicted the original prediction about its
orbit.
12 hours
b
12 hours
c
6 hours
Activity: Investigating tides
1
The tidal force from the Moon pulls the water
towards the Moon on the side of Earth facing
the Moon.
2
Two
3
Two
4
a
As it takes the Earth 24 hours to rotate
once on its axis, two high tides in 24 hours
are 12 hours apart.
b
Low tide is mid-way between two high
tides, so six hours after high tide. Six
hours after the next high tide means
12 hours apart.
a
They will occur slightly later each day; the
Moon orbits Earth in the same direction
as Earth rotates on its axis.
b
The Moon takes 29 days between being
over the same position on Earth, which
takes 24 hours (one day) to rotate once on
its axis. The Moon will make 1/29 of its
orbit in 24 hours, which is 1/29 of a circle:
1/29 of Earth’s rotation is about 50 minutes,
so tides will get 50 minutes later each day.
Think like a scientist: Discovering
planets
1
a
5
Scientists found Neptune using careful
observations.
Topic 3.4 Tides
Getting started
1
The Sun
2
The Moon
3
Gravity
Questions
10
1
The Sun and Moon
2
Tidal force
6
The ocean facing the Moon is deeper in set 2.
The tidal force from the Sun and Moon
together is stronger than from the Moon
alone, so the pull on the water will be greater.
7
New Moon
8
Full Moon
a
Highest tides will be at new Moon and
full Moon.
b
Two
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Think like a scientist: Discovering the
causes of tides
4
Any example of something that is hot getting
cooler over time.
1
5
Increase in demand for energy: more people
means more food needed, so more chemical
energy; people want electrical goods, so
more electrical energy needs to be generated;
people want cars and transport, so more
fuel is needed which means more chemical
energy. Other answers include reference to
waste disposal/recycling/building if linked to
named energy stores.
The sailor noticed that the depth of water
changed. This was an observation.
The sailor thought that the change was caused
by the Moon. This was a prediction.
The sailor did not know about gravity, so
could not give an explanation for the tides.
2
Either:
A simple description of an experiment to
demonstrate that water is not magnetic, e.g.
pour (sea) water on the desk and try to attract
it with a magnet (not just a statement that
water is not magnetic).
Topic 3.6 Changes in energy
or
1
Stores may include: elastic, gravitational
potential, chemical, thermal, kinetic. Transfers
may include: light, sound, electrical, thermal.
2
Cells/batteries, food and chemical fuels are
chemical energy stores.
Hot objects are thermal energy stores.
Moving objects are kinetic energy stores.
Objects that have been lifted are gravitational
potential energy stores.
Objects that have been stretched/compressed
are elastic energy stores. Light coming from
the Sun to Earth. Sound from talking going
to someone’s ears. Electrical in wires. Thermal
from a heater to the air in a room.
A simple description of an experiment to
demonstrate that there is no magnetic effect
from the Moon detectable on Earth, e.g.
demonstrating that a magnetic compass points
in the same direction regardless of the position
of the Moon.
3
Getting started
Newton provided evidence to support an
hypothesis; Newton made predictions that
were shown to be accurate.
Topic 3.5 Energy
Getting started
1
Answers may include activities such as
walking, running, lifting, writing.
2
Answers may include fuels such as wood,
coal, (natural) gas, oil, or oil-derived fuels, e.g.
petrol/gasoline, diesel.
Questions
1
When something happens, energy is changed
or transferred.
2
a
Electrical to light
b
Chemical to kinetic/electrical to kinetic (if
referring to an electrically powered bus)
c
Electrical to sound/chemical to electrical
to sound (if referring to a battery powered
radio)
a
Chemical � kinetic
Questions
1
2
3
a
Chemical
b
Electrical
a
Chemical
b
Chemical
b
Chemical � thermal
c
Gravitational potential and kinetic
c
Kinetic � gravitational potential
d
Gravitational potential
d
Gravitational potential � kinetic
a
Chemical, elastic or gravitational
potential (or others not given in the table,
such as nuclear).
b
11
3
Kinetic, light, sound
Activity: Freezing water
1
It decreases.
2
It turns from liquid to solid or freezes which
requires a temperature decrease.
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3
As thermal energy
2
Thermal, light and sound
4
The thermal energy comes from the water.
3
a
5
The thermal energy goes out of the water and
into the freezer and out the back of the freezer.
Electrical to light (useful), thermal
(wasted)
b
Chemical to kinetic (useful), thermal and
sound (both wasted)
c
Electrical to kinetic (useful), thermal and
sound (both wasted)
Think like a scientist: Candle energy
1
Risk of breaking thermometer; thermometer
is measuring equipment not stirring
equipment.
2
The wax is a store of chemical energy in
candle; chemical energy converted to thermal
energy in flame.
3
The wax got used up or decreased in mass.
4
Two from: the container; the tripod/support/
gauze; the air around the equipment; the heatproof mat/desk.
5
Move the candle (flame) closer to the beaker;
protect against draughts; put a lid on the
beaker; use a thinner gauze.
Other answers could refer to using knowledge
about conduction, convection or radiation,
such as insulating the beaker/a container
made of material that is a better conductor
than glass.
6
Data are continuous; there are values between
the recorded temperatures; idea of being able
to read off other values.
4
Activity: Ripple tanks
The wave should be visible for between six
and eight passes across the tray. The depth of
water in this experiment affects the wave speed
and not the number of passes, but as the water
gets deeper they may be able to see at least one
more pass.
It should not make a significant difference whether
the wave goes along or across the tray.
1
Depth of the water or height the tray is
dropped from.
2
Along the tray; this is because it makes the
same number of passes in each direction, but
one pass is longer this way.
3
Kinetic
4
dissipates (learners should not be asked where
the energy dissipates to, as the answer to
this in water waves is complex; if they ask,
it is sufficient to state that it is used in the
movement of the particles in the water)
Topic 3.7 Where does
energy go?
Getting started
Burning wood for cooking changes chemical
energy to thermal and light energy. Thermal
energy is transferred to the food.
Think like a scientist: Energy dissipation
1
Graph should have axes in the correct
orientation; axes should be labelled with units
and have sensible linear scales; all points
should be plotted correctly and a smooth
curve drawn.
2
As time increases, temperature decreases;
temperature decreases quickly at first, then
more slowly as time goes on.
3
To ensure all the water is at the same
temperature and the thermometer is not in a
hot or cold spot.
Walking up stairs changes chemical energy in food
into kinetic energy for movement. The kinetic
energy for movement is changed to gravitational
potential energy to go upwards.
Cycling on a level road changes chemical energy
in food into kinetic energy for movement. Some
of this energy is used to overcome friction and air
resistance.
Questions
1
12
Graph 3: learners should be able to do
this by working out that an object’s
temperature will eventually become the same
as its surroundings.
Energy that spreads out and becomes less
useful.
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4
Thermal energy decreases with time. (It
is important that learners do not think
temperature is the same as thermal energy, but
this point should not be explained at this stage
– it is sufficient to state that they are different.)
5
The container; evaporation or steam; into the
surrounding air; into the surface the container
was sitting on.
6
a
b
7
Blow on it or direct cold air from a fan
onto it; put it in a colder place; increase
the surface area of the tea; answers that
use knowledge of conduction, convection
or radiation, e.g. use a better conductor
for the container.
c
3.3 a
b
3.4 a
Put it in a warmer place; put a lid on the
container; put it in an insulated container.
The tea will stop cooling; it will only cool
down to the temperature of the room or
surroundings; it cannot cool to any lower
temperature by itself.
b
3.2 a
b
Its weight would be less on the
Moon/greater on Earth
ii
Its mass would be the same.
Gravity; from the Sun
(Force of ) Sun’s gravity is stronger on
Mercury than Earth (must have idea
that it is gravity from the Sun which is
stronger, not just gravity.)
B and D
b
12 (hours)
c
Using M = Moon, E = Earth, S = Sun,
the possibilities are M-E-S or S-E-M
and E-M-S or S-M-E shown in line.
d
The Moon causes a tidal force on the
Earth.
3.5 D: weight and force
3.6 a
b
Check your progress
3.1 a
i
Dissipate
Useful: kinetic
Wasted: thermal, sound
Weight
3.7 B: air resistance no; gravity yes.
Mass
3.8 a
The Sun has a larger mass than the
other planets.
i
1 × 10 = 10 N
ii
150 ÷ 1000 = 0.15 kg
b
Thermal
Any two from:
into the container; into the air; into
steam; into other named object in
surroundings.
0.15 × 10 = 1.5 N
Unit 4 Grouping and identifying organisms
13
Topic 4.1 Characteristics of living
organisms
6
Respiration
7
Movement
Questions
Activity: Is a car alive?
1
Feeding
1
2
Smell
3
Carbon dioxide
4
Reproduce
5
Growth
Learners may suggest some of these
similarities:
•
Both the car and living things can move.
•
The car uses fuel, which is like the food
taken in by a living thing (nutrition).
•
The car uses oxygen and food to release
energy, which is like respiration.
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2
•
The car produces exhaust gases, which is
like excretion.
•
Some cars have sensors, which is like
sensitivity in living things.
Differences can include: the car can move,
but not by itself (although learners may think
of driverless cars, which of course do move
without a human driver). The car cannot
reproduce or grow.
Think like a scientist: Comparing
organisms belonging to different
species
1 and 2 Learners’ answers will depend on the
species that you have supplied.
3
Topic 4.2 Viruses
Getting started
The characteristics are listed in Topic 4.1, where
descriptions are also given.
Activity: Are viruses alive?
Learners should point out that viruses are able to
replicate themselves, which is a characteristic of
living organisms. However, they can only replicate
inside a living cell, and they have none of the other
characteristics of living organisms. On balance,
most learners are likely to decide that viruses are
not living organisms.
Topic 4.4 Using keys
Questions
1
1b, 3a
2
There are two statements to choose from each
time.
Think like a scientist: Using a key to
identify species of fish
1
There is a wide range of similarities that could
be noted: they both have four legs, tusks, trunk
and large ears that lie back against their necks.
Learners may see some of these differences in the
pictures in the Learner’s Book. Note that they
cannot be expected to know which are simply
differences between these two individuals, and
which are differences between the two species.
African elephants have larger ears, longer tusks
and a more domed head. They are grey, whereas
Indian elephants are brown.
Organisms that belong to the same species
usually look similar to one another.
They look different from organisms belonging
to other species.
2
14
C is a zebra fish
D is a clown fish
2
1 a
b
2 a
Fish has stripes………………..go to 2
Fish does not have stripes…….……
horn shark
Stripes are vertical ................. go to 3
b
Stripes are not vertical .............. zebra fish
3 a
Fins have spines ................... dragon fish
b
Fins do not have spines .......... clown fish
Topic 4.5 Constructing keys
Getting started
Questions
1
A is a horn shark
B is a dragon fish
Topic 4.3 What is a species?
Activity: Comparing two species of
elephant
Scientists would try to find out if the two
organisms can reproduce with each other. If
they have offspring, they would need to find
out if those offspring can reproduce. If they
can reproduce, then the organisms belong to
the same species. If not, they belong to different
species.
To be the same species, they need to reproduce
together to produce fertile offspring. Ligers
are not fertile.
The first and third questions are not suitable
because you cannot be sure of the answer.
Different people might disagree about whether a
plant is ‘tall’ or not, or whether its leaves are ‘dark
green’. The statements in a key must always give a
clear yes/no answer.
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Think like a scientist: Making keys to
identify four learners
1
2
2
4.1 a
The keys should be assessed according to how
well they work. Look for:
•
Choices that offer easy-to-make decisions.
•
No more than four choices to make in all.
•
A key that works.
b
It can move. It feeds. It respires. It can
sense changes in its environment.
Any two of: it excretes, it reproduces,
it grows.
4.2 A class arachnids
B class insects
Learners should try to make at least one
suggestion for improvement. The best
suggestions will be tightly focussed and give
their partner a clear instruction for how they
could improve the key.
Think like a scientist: Writing a key to
identify species of cats
1
Check your progress
C class insects
D class myriapods
E class crustacea
4.3 a
The keys should be assessed according to how
well they work. Look for:
•
Choices that offer easy-to-make decisions.
•
No more than four choices to make in all.
•
A key that works.
b
She did not find red-crowned and
yellow-crowned parakeets making nests
together which suggest that they
do not reproduce with each other.
She should check more pairs of
parakeets in the wild.
4.4 Look for the following points:
There is a series of pairs of statements.
Assess feedback as in Think Like a Scientist
Q2 above. You can also check how well each
learner has responded to their feedback by
looking at any changes they made to their key.
Each pair of statements is a contrasting pair.
Each pair of statements can be used
unambiguously.
There are no more than four pairs of
statements.
Unit 5 Properties of materials
Topic 5.1 Metals and non-metals
4
Ductile: able to be drawn out into a wire.
Getting started
Accept any correct answers – the metals may
include those used for door handles (may be
aluminium, steel or brass), window frames,
jewellery, electrical fittings, light fittings.
Accept suggestions as to how these can be recognised
as metals such as feels cold to the touch, shiny.
Questions
1
Accept any ten metals.
2
Gold and silver are used for jewellery because
they are shiny and quite rare, which increases
their value.
3
15
Malleable: able to be shaped.
5
Olympic medals are made from gold, silver
and bronze.
6
All metals (except aluminium) are found on
the left side of the Periodic Table.
7
Accept any five non-metals other than sulfur
and helium.
8
Sulfur is used to harden rubber.
9
The useful property of helium is that it is
very light.
10 The non-metals are on the right side of the
Periodic Table.
Copper is useful because it can be made into
wires, it is ductile and is a good conductor of
electricity so it is used for electrical wires.
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Topic 5.2 Comparing metals and
non-metals
Questions
1
4
24 carat gold has 24 parts out of 24 gold;
there is no other metal present, so it is pure
gold.
5
18 carat gold is an alloy made of 18 parts gold
to 6 parts of another metal, such as silver or
copper; 24 carat gold is pure gold.
6
Pure silver is not used for coins because it
is too expensive and it is not hard enough to
stand up to the damage that is caused when
coins rub against one another in pockets,
purses or vending or counting machines.
7
We don’t use pure copper for our coins because
it is too expensive and too soft. Copper also
reacts with the air and turns green.
8
Any alloy used inside the body, for example
for hip replacements, must be strong and light,
and not react with the body tissues.
9
Some glasses frames are made from shape
memory alloy metal because they can easily be
returned to their original shape by heating, if
they get bent.
Credit any five named objects made from metals.
Credit any five named objects made from
non-metals.
2
Non-metal
3
It is a liquid at room temperature.
4
Conduct electrical energy; conduct heat energy
Topic 5.3 Metal mixtures
Getting started
A is an element because there is only one type of
atom present.
B is a compound because there are two types of
atoms bonded together.
C is a mixture as there are two types of atom but
they are not bonded together.
D is an element as there is only one type of atom
present.
Think like a scientist: Modelling a metal
and an alloy
1
16
Answers will depend on how successful they are
with the practical task. The bubbles should line
up in rows, but do not encourage learners to
simply give the expected answer at the expense
of observations; in other words, learners should
be credited for writing what they observed.
2
Other bubbles will move to fill the space.
Again, credit what the learners observe.
3
Dependant on what they observe. The
expectation is that the rows of bubbles move
freely and slide across one another.
4
Dependant on what learners observe. The
expectation is that the larger bubble disrupts
the rows, so that the bubbles cannot move
as freely.
10 A range of temperatures is given because there
is more than one type of bronze. These are
made using different proportions of copper and
tin, sometimes other metals are added. Each
different mixture has a different melting point.
11 Credit any correct shared properties, such as:
they are both alloys, have a range of forms
and melting points, both contain copper,
resistant to corrosion.
12 Credit any correct shared properties, such
as: both elements; metals; conduct heat and
electricity.
13 Credit any correct different property, such as:
copper is reddish in colour whereas tin is white;
tin is softer than copper; tin is not as good a
conductor as copper; the melting point of copper
is much higher (1085 °C) than that of tin (232 °C).
Topic 5.4 Using the properties of
materials to separate mixtures
Questions
Getting started
1
An alloy is a mixture of metals.
2
Aluminium is light and easily malleable, which
makes it suitable for building planes.
3
An aluminium alloy is used because
aluminium is not strong enough to withstand
the stresses involved in flight.
Expected answers might be: in a mixture the things
are just mixed up but are still separate. However, in
a compound the substances have joined together.
The point of this exercise is to discuss and share
ideas, and to establish what learners know.
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Questions
1
2
3
The liquid water in the flask is heated and,
as the particles of water have more energy
transferred to them, they begin to move more.
Eventually some are able to overcome the
weak forces that are holding them in place.
The liquid water changes state to become a
gas, which escapes into the condenser.
The steam in the condenser moves along the
central tube. The condenser has an outer tube,
through which water from the tap flows and
this cools the condenser. The steam inside the
condenser has heat energy transferred from it
to the water in the outer tube. As the particles
of water in the steam lose energy they cannot
move freely and condense into water.
The different properties of water and food
dye used to separate them are their different
boiling temperatures.
Think like a scientist: Separating sandy,
salty water
1
The sand remains because the grains are too
large to pass through the small holes in the
filter paper.
4
Wear safety glasses. Take care while the
solution is heating as it may spit. Move the
evaporating basin with tongs.
Topic 5.5 Acids and alkalis
Questions
1
Citrus fruits, tomatoes. Accept drinks such as
cola and coffee.
2
They taste sour.
3
Corrosive means that it will dissolve your
clothing and skin and cause chemical burns.
4
If you spill acid you should wash the area with
lots of water.
Topic 5.6 Indicators and the
pH scale
Questions
1
The indicator turns one colour in an acid and
a different colour in an alkali.
2
Red cabbage indicator turns red in lemon
juice.
3
It turns blue.
4
Red
5
Water is neutral. I know this because litmus in
water is neither red nor blue, it is purple.
6
How acidic or alkaline a substance is.
7
pH 7
Think like a scientist: Separating two
solids
8
It is a strong acid.
9
pH 12 to 14
1
10 Blue
2
3
This is not a good idea because the wet filter
paper is easily torn. If you stir up the mixture
with a pencil, you are likely to damage the
filter paper and let the contents flow through it.
You should wear safety glasses and if the
solution starts to spit you should turn off the
Bunsen burner.
4
You could heat the salty water in a condenser.
5
You could wash the salt using clean water,
filter using finer filter paper and then evaporate
again. You could repeat this several times.
2
3
The salt will dissolve in water, but the carbon
will not.
Safety glasses, beaker, conical flask, filter
funnel, filter paper, evaporating basin, pipe
clay triangle, tripod, Bunsen burner, heatproof mat, stirring rod, tongs. Accept other
suitable apparatus.
Accept logical steps that will work, such as:
Mix the salt and carbon with water and stir.
Filter the mixture. Place the filtered liquid
17
into an evaporating basin. Heat with a
Bunsen burner until the solution starts to spit.
Turn off the heat. Leave to cool and for the
remaining water to evaporate.
11 Red, orange or yellow
Check your progress
5.1 Metals are shiny when freshly cut or polished.
They are strong and if you tap them they ring
like a bell. Metals conduct heat energy and
electricity. Metals are malleable, which means
they can be beaten into shape.They are ductile,
which means they can be drawn out into wires.
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5.2 a
Silver coins are not made of pure silver
because they would be too expensive, and
would wear quickly due to their softness.
b
In a pure metal the atoms line up in
regular rows, side-by-side and one on top of
another. This means that when the metal is
hit the rows can move across one another.
In an alloy particles of a different size are
mixed with the pure metal so the particles
in the rows are not all the same and the
pattern is disrupted. When the alloy is hit
the rows cannot slide across one another in
the same way. Credit a diagram to help the
explanation.
5.3 a
b
i
Is ductile or conducts electricity.
ii
It is shiny or expensive.
b
Red
iii
It is strong.
c
Purple
iv
It conducts heat well, it is strong,
it does not rust.
Any three, such as those below. (The
important issue is that the feature of
both the metal and the non-metal must
be mentioned.)
•
Metals are solid at room
temperature, but many
non-metals are gases.
•
Metals are shiny, but non-metals
are dull.
•
5.5 a
5.6 a
b
5.7 a
An indicator
The driver places warning notices
nearby so that everyone knows what
is being delivered and that means
they will know at once how to treat
it if there is an accident.
The area of the spill could be covered
with lots of water to dilute the acid so
that it causes less harm.
Melting
point in °C
Tally
Boiling
point in °C
Tally
Metals are malleable and do not
shatter, but non-metals are brittle.
up to 0
|||
up to 0
||
0 to 499
|||
0 to 999
|||
•
Metals are ductile, but non-metals
are not.
500 to 999
|
1000 to
1999
|
•
Metals conduct heat energy
well, but non-metals do not.
1000 to
1499
|||
2000 to
2999
||||
•
Metals conduct electricity
well, but non-metals do not.
5.4 Equipment he will need: dustpan and brush,
thick rubber gloves, safety glasses, filter paper,
filter funnel, beaker, conical flask, evaporating
basin, tripod, pipe clay triangle, Bunsen
burner, tongs.
Marcus should put on the gloves and safety
glasses, and use the dustpan and brush to pick
up the glass and copper sulfate crystals from
the floor. He should carefully pick out the
larger pieces of glass. Then he should put the
glass and copper sulfate crystals into a beaker
of water. The copper sulfate will dissolve but
18
the glass will not. He may be able to pour off
some of the liquid into another beaker leaving
some of the pieces of glass behind. The mixture
of glass and blue liquid should be filtered. The
glass fragments will be left in the filter paper.
Marcus should be careful handling this. The
blue liquid that comes through the filter paper
should be placed in an evaporating basin
and heated. The Bunsen burner should be
turned down once the liquid starts to boil and
turned off once it starts to spit to prevent him
getting burnt. The evaporating basin should
be left for a few days so that all the water can
evaporate. The evaporating basin should only
be moved using the tongs.
b
For each graph:
•
Use of sharp pencil, ruler and
general presentation
•
Accuracy of the plots
c
Oxygen and helium
d
Mercury
e
Gold, lead, copper, aluminium, nickel,
sulfur and sodium
f
Helium
g
Gold
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Unit 6 Earth physics
Topic 6.1 Sound waves
Getting started
1
Things such as: aircraft, explosions, power
tools, public-address systems, large crowds
cheering, thunder, dogs barking.
2
Things such as: whispering, walking on carpet,
insects flying, cats purring, people or animals
breathing.
3
Sounds such as babies crying, car alarms, whistles,
birds cheeping, wheels or hinges squeaking.
4
Sounds such as thunder, bass musical
instruments, animals growling, large road
vehicles, aircraft.
1
The string
2
Sound heard louder/more clearly when string
was tight than when string was slack.
3
The sound was stopped or reduced in loudness.
4
No difference
5
The string must vibrate to carry the sound
(wave); the sound wave makes the string vibrate.
6
Make a recording of the voice and play back at
the same loudness each time, or suggested use of
any other sound source that can be controlled.
Topic 6.2 Reflections of sound
Questions
Getting started
1
B
2
A
3
Vibration of the wings
4
Sound travels through air as a sound wave.
5
C
6
Vibration of particles in air (caused by the
thunder).
7
Vibrations are very small, so sounds are very
quiet or too quiet to hear.
Learners could draw a diagram of the slinky
spring showing compression and stretching.
Alternatively, learners could draw a series of
double headed arrows aligned end-to-end.
For the challenge part, learners could use phrases,
such as pushing and pulling, compressing and
stretching, particles getting closer and further apart.
Questions
1
C
2
B
8
A, B, C
3
Fewer echoes in B; curved surfaces in B
9
Vacuum on the Moon. No particles; sound
waves cannot travel without particles.
4
C
5
Distance = 1500 × 0.2 = 300m
10 You would not hear an explosion in space.
Space is a vacuum and sound waves cannot
travel in a vacuum.
19
Think like a scientist: Sound and
vibration
300
___
2 = 150 metres
Activity: Modelling echo location
Activity: Modelling sound waves
1
The food/prey/named animal
1
Away from the moving hand
2
a
2
No. Only the wave / vibrations
3
Backwards and forwards along the line of the
wave direction or along the line of the spring.
The mirror reflects the light just as the
food reflects the sound; the reflections
can be seen; the reflections can be used to
locate the mirror.
b
4
Movement
Light is not the same as sound; the mirror
does not move as the food would move; the
bat or dolphin hears the reflected sound
with less loudness and we cannot do this
with light; we need to move the light source
around to judge the distance to the mirror.
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Think like a scientist: How is sound
reflected?
1
2
3
The angle between the tubes and the reflected
surface is equal. As the angle between the
sound source tube and the surface increases,
so does the angle of the other tube.
Reference to hard, smooth surfaces giving
better reflections or soft, rough surfaces giving
poorer reflections.
Topic 6.4 Changes in the Earth
Getting started
1
Similarities: a volcano is sometimes a type of
mountain, both are made from rock, both are
higher than surrounding ground level, both
have a base and a highest point.
2
Differences: mountains are not active or
do not erupt, volcanoes have lava/magma,
volcanoes have a crater or openings.
Glass, tile, metal, wood (good)
Questions
Fabric, sponge (bad)
Topic 6.3 Structure of the Earth
1
B
2
Plates push against each other; rocks are
pushed upward at the boundary.
3
C
4
Forces on tectonic plates; build-up of force or
pressure; sudden movement.
Getting started
The aim is to find out what learners think
rather than obtaining a factually correct answer.
Diagrams could vary from a solid object with no
layers, to a hollow object, to a solid object with
any number of layers.
Questions
Activity: Model for moving tectonic
plates
1
Core
1
2
Iron, nickel
3
Oxygen
4
Aluminium
5
The shapes of the continents fit together; the
types of rocks on the different continents
match up where they fit together; the fossils on
the different continents match up where they
fit together.
6
Because he could not explain how continental
drift occurred.
7
Answer can be determined from the map in
the Learner’s Book.
8
The tectonic plates move on liquid magma.
Model B – one piece of paper slid over/under the
other; when the pieces of paper made contact
edge-to-edge, the pieces bent and formed a
curve; the paper was raised up from the surface.
Model C – the modelling clay was distorted/
compressed and folded upward.
Model D – the outer part of the chocolate
cracked and the soft inner part came out; the
cracked parts were pushed upward.
2
2
a
The tectonic plates
b
Heat from the Earth’s core
c
Magma or the mantle
Model C – formation of fold mountains.
Limitations: tectonic plates are not small and
light; tectonic plates do not move on water;
movement of tectonic plates is much slower.
20
Model D – earthquake (when the chocolate
breaks); formation of volcanoes (when the soft
centre comes out); formation of fold mountains.
3
Strengths: movement of the polystyrene is caused
by heat; movement can be seen in a short time.
Model A – formation of fold mountains.
Model B – first part: subduction/one tectonic
plate moving under another; second part:
formation of fold mountains.
Activity: Drifting plates
1
Model A – the cloth wrinkled and was pushed
up into folds.
Model A – strength of this model is the
flexibility of the cloth allowing folding to occur
easily. One limitation is that one piece of cloth
represents two different tectonic plates.
Model B – strength of this model is the two
pieces of paper represent two tectonic plates.
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One limitation is that paper is too stiff to fold
like the cloth in model A.
Model C – flexibility of the modelling clay is
the strength of this model.
Model D – strength of this model is the ability
to represent both the solid crust (the chocolate)
and the liquid magma (the soft centre).
4
5
Model A – use two pieces of cloth.
Model B – any way of increasing friction
between the two pieces of paper, or increasing
contact at the edges, such as crumpling and then
straightening out again to introduce wrinkles.
Model C – place a lower friction surface under
the modelling clay to represent the mantle.
Model D – possible reference to warming or
cooling the chocolate depending on how well
the activity worked, given the temperature of
the classroom.
Model D is best because it models all three
phenomena: fold mountains, earthquakes and
volcanoes.
Topic 6.5 Solar and lunar eclipses
2
A solar eclipse
3
There is a total eclipse where the shadow on
the Earth is darkest and a partial eclipse on
the Earth where the shadow is lightest.
4
A lunar eclipse
Think like a scientist: Making
predictions about eclipses
1
The date, the time and the place from which it
can be seen.
2
223 × 29.5 = 6578.5
3
They must be in line with each other.
4
Working out the time between events in the past
can be used to predict the times in the future.
5
Observe whether the eclipse actually happens
when predicted.
6
The times will not be exact, so any differences
become increasingly greater further into the
future.
7
Knowing the time interval between eclipses
can allow them to work backwards. The date
in that year when the eclipse occurred must be
the date of the battle.
Solar eclipse. The Sun can just be seen behind
the Moon.
Getting started
1
In straight lines
8
2
When an opaque object blocks light, light
shines past the sides of the object and a darker
area, which is the shadow, forms on another
object (such as the ground or a wall) where the
light has been blocked.
Check your progress
3
The Moon gives out its own light – false
The Sun gives out its own light – true
6.1 Vibration
6.2 A sound wave travels from the pen to Sofia’s
ears.
The sound wave travels through the air.
Questions
6.3 Arrow drawn as a straight line pointing in
any direction.
1
C
2
B
3
A solar eclipse occurs when the Moon passes
in front of the Sun; the Sun can only ever be
seen in the daytime.
4
False; for the shadow of the Earth to be seen
passing across the Moon, the observer must
be at a point on Earth furthest away from the
Sun; it will be night time in this position.
Activity: Classroom eclipses
1
21
The side of the Earth facing towards the lamp/
Sun is in the day and the side of the Earth facing
away from the lamp/Sun is in the night.
Two more opposing arrows or double headed
arrow; parallel to the direction.
6.4 Modelling
6.5 a
b
W–B; X–D; Y–C; Z–A
Separate parts of the Earth’s crust; that
move on the mantle.
6.6 Earthquakes
6.7 Tectonic plates move together in opposite
directions.
Rocks get pushed upward at the boundary
(of the plates).
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b
6.8 A solar eclipse happens when the shadow
of the Moon forms on the Earth.
6.9 a
Moon
Earth
Sun
Moon
Earth
Sun
Unit 7 Microorganisms in the environment
Topic 7.1 Microorganisms
Topic 7.2 Food chains and webs
Questions
Getting started
1
1
Grass � deer � tiger
2
Leopard
2
Viruses are not generally considered to be
living organisms as they show none of the
characteristics of living organisms apart from
reproduction, which they can do only when
inside a cell.
What we see on the surface of the fruit is a very
large number of individual cells, i.e. – a colony.
Each individual cell is a complete organism. We
can only see these cells using a microscope.
Deer
Langur monkey
Grass
Questions
3
The cells are arranged end-to-end in long
threads. Learners may also mention the
circular cells arranged in a sphere.
1
The food chain should show sunlight, then
an arrow going to wheat, then an arrow to a
chicken and finally an arrow to Arun.
4
a
2
This will depend on the learner’s choice of food.
3
Accept any food chain taken from the food
web.
4
Acacia tree and grass
5
7
6
3
7
Any two from cheetah, leopard, hyena and
aardvark.
8
Any two from:
Look for a drawing of one or two of the
bluish-white cells.
b
Look for a drawing of one of the cells or
threads with green colouring.
c
Labels should show that the plant-like cells
have cell walls, and green colouring inside
them (which is chlorophyll; the chloroplasts
are not visible). Animal cells do not have
these features.
Think like a scientist: Growing
microorganisms from the air
1
2
3
22
Tiger
Nutrients are materials that organisms need
for growth and to provide energy.
The purpose of this investigation is to grow
microorganisms that have come from the air.
You do not want to grow any microorganisms
that were there before you took the lid off
the dish.
Cheetah (predator) and springbok, zebra or
aardvark.
Leopard (predator) and hyena, springbok,
zebra or aardvark (prey).
Aardvark(predator) and termites (prey).
Hyena (predator) and springbok (prey).
Drawings will depend on what has grown on
the agar jelly.
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Think like a scientist: Using a food web
as a model
1
Topic 7.3 Microorganisms and
decay
Activity: What can microorganisms
decay?
1
Bread, leather, wood, fruit
2
Any two things made of organic matter.
Any two things not made of organic matter.
Bread, leather, wood, fruit and the two named
items made of organic matter in the answer to
question 1.
Questions
3
The conclusions should relate to the
purpose of the investigation. For example,
higher temperatures speed up decay by
microorganisms.
Think like a scientist: Investigating how
moisture (water) affects decay
The plan should state:
That the amount of water will be varied and how
this will be done.
How decay will be observed or measured, for
example by estimating or measuring how much of
the bread is covered by mould.
Which variables will be kept the same, including
the temperature, type of bread, time of exposure
to the air and type of covering.
A prediction of the results that would be expected
– which will probably be that decay will happen
faster on moist bread than on dry bread.
Topic 7.4 Microorganisms in food
webs
Getting started
1
Decomposers break down organic material,
making it decay.
1
Correct
2
For example, they make food go bad.
2
Correct
3
Learners will need to come up with their own
ideas. They may think of micoorganisms that
convert food from one form to another, for
example milk to yoghurt. They may also think
of how they get rid of dead bodies and waste
material. (This is covered in the next topic.)
3
Correct
Think like a scientist: Investigating
how temperature affects decay by
microorganisms
1
23
Answers will depend on any differences
between the results for different groups.
Differences could be in the way the experiment
was conducted, e.g. different bread was
used, the way it was covered was different,
some groups made their bread wetter than
others. Or it could depend on how many
microorganisms fell onto the bread during the
time that it was exposed to the air.
Learners should recognise that a food web is
useful for showing, in a simple and visual way,
the feeding relationships between organisms.
We can see how energy passes from one
organism to another.
They should also recognise that the food web
is far from a complete representation of what
actually occurs. In reality, many more organisms
will be part of the web. The model also does not
tell us how important each relationship is. For
example, do leopards eat mostly hyenas, or are
zebras their most important prey? Are sprinbok
mostly killed by cheetahs, or are hyenas a more
likely predator for them?
3
2
Activity: Decomposing fruit
1
Answers will depend on what learners saw as
the fruit decayed. They may see fungi growing,
or the food may just gradually liquefy,
indicating that bacteria are the main agents of
decomposition.
2
Decomposers are breaking down the fruit and
making it rot.
Learners are likely to find that the bread
went mouldy more quickly in the warm place
than in the fridge. If they have collected
quantitative results, they can make a
quantitative comparison.
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Questions
Length of grass leaf in cm
1
Next to cow dung
2
The food chain should begin with a producer,
and have arrows pointing from the producer
to a consumer and then another consumer.
There should be an arrow from each of these
organisms to the decomposers.
Decomposers are consumers. They do not
make their own food.
Activity: Are all decomposers
microorganisms?
b
1
The fungus is a decomposer. It is breaking
down the wood in the log as it feeds on it.
2
It is not a microorganism when it is producing
toadstools. At other times, when there are no
toadstools, the fungus is a microorganism,
existing as microscopic threads that grow
through the wood.
3
From sunlight: the tree used energy in sunlight to
make food. Some of this energy was then passed
on to the fungus as it fed on the wood of the tree,
and then to the slug as it fed on the fungus.
4
Tree � fungus � slug
5
Bacteria
11
9
13
10
9
6
12
7
8
9
Next to cow dung: mean length
No cow dung: mean length
Column headed ‘mean’ with answers
inserted.
c
The conclusion does match the
data. However, only five grass leaves
were measured from each area. The
sample size is not big enough to be
representative. The farmer should
measure many more grass leaves from
many more areas with and without cow
dung.
d
The fungi break down or decompose
the cow dung. This releases nutrients into
the soil, which the grass uses to help it to
grow faster and taller.
Check your progress
7.4 a
7.2 Decomposers should be shown feeding on all
other organisms in the chain. Arrows should
point in the right direction.
To kill any microorganisms already
present, as these might make the milk
go bad rather than turn it into yoghurt.
b
The kind of microorganisms (bacteria)
that change milk into yoghurt.
7.3 a
c
Sofia could put the milk into a
warm place.
7.1 B and C
There are various possibilities for entirely
correct tables. For example:
Next to cow
dung
Length of
grass leaf
in cm
24
No cow dung
No cow dung
11
9
13
10
9
6
12
7
8
9
Microorganisms grow faster at warmer
temperatures, so they would have
changed the milk into yoghurt faster.
d
The pH would become lower.
The microorganisms change sugars in
the milk to lactic acid. Acids have a
pH below 7.
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Unit 8 Changes to materials
For examples where there was no reaction,
they should write only the names of the
reactants as there are no new products.
Topic 8.1 Simple chemical
reactions
Getting started
6
Wear safety glasses; handle acid with care; do
not overfill the test tubes to avoid fizzing and
spilling. Credit anything relevant.
7
A lighted splint placed in the mouth of a test tube
containing hydrogen will produce a pop sound.
A substance that can poison you: toxic
Questions
1
The melting point of magnesium is 651 °C and
that of oxygen is – 214 °C, whereas the melting
point of the product, magnesium oxide, is
much higher at 2800 °C.
2
Both magnesium and magnesium oxide are
solids.
3
a
Chemical reaction
b
Physical change
c
Chemical reaction
d
Physical change
e
Chemical reaction
f
Chemical reaction
A substance that catches fire easily: flammable
A substance that can dissolve your skin: corrosive
4
Magnesium reacts with oxygen to produce
magnesium oxide and it reacts with
hydrochloric acid to produce magnesium
chloride and hydrogen.
5
Magnesium is a light grey/silver coloured
solid, which is readily malleable. Credit other
properties such as it is very light or soft.
6
Zinc chloride and hydrogen.
Think like a scientist: Burning
magnesium
1
The description should include the fact that
it burns very brightly and that the ribbon
disappears or changes.
2
A white powder is formed.
3
The reactants are magnesium and oxygen.
4
These should include wearing safety
glasses, not looking directly at the burning
magnesium, holding the magnesium at arm’s
length and taking care with the hot tongs.
Think like a scientist: Reactions with
water and acid
5
Each reaction should show the relevant
reactants and products.
Reactants: zinc and hydrochloric acid.
Topic 8.2 Neutralisation
Getting started
Neutral means neither acid nor alkali. Learners
may cite properties such as pH 7 or turning
universal indicator solution green.
Questions
1
Green
2
A neutralisation reaction happens when an
acid and an alkali are mixed.
Products: zinc chloride and hydrogen.
25
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3
Toothpaste is alkaline so that it can neutralise
the acid in your mouth, and help to stop your
teeth decaying.
4
The acid in your mouth comes from the
millions of bacteria there. When bacteria feed
they produce acid.
3
They are changing the powder they are testing.
4
They are measuring the number of spatulas of
powder they use to neutralise the acid.
5
The most effective powder is powder B.
6
The least effective powder is powder C.
7
There should be some discussion of the fact
that there could be mistakes as there is only
one set of results.
8
Powder A
Activity: Rainbow neutralisation
9
The first result for powder B looks ‘wrong’.
1
The answer will depend on how successfully
the practical task was carried out; it should be
about pH 2.
2
This should be about pH 13.
10 They may have miscounted the number of
spatulas, or heaped them up so that they
were adding more each time. They may have
measured the volume of acid incorrectly.
Credit any sensible ideas.
3
The bottom of the test tube.
4
So that the liquids did not mix too much.
5
This will depend on the acid and alkali used.
It is likely to be the symbol for corrosive – can
destroy living tissue and cause burns, or the
symbol for health hazard – can cause harm
and irritate skin and eyes.
5
6
In some countries the lakes have become very
acidic as a result of acid rain: this changes the
pH and plants and animals can no longer live
there. These countries may drop alkalis into
the lakes to overcome the effects of this.
Some farmers may spread lime onto acidic
soils to neutralise them. They do this so that
crops that prefer less acidic soil will grow well.
Think like a scientist: Testing the pH of
the soil
11 They should have ignored the ‘wrong’ result
and repeated the experiment.
12 No, they should not have included it; they should
have ignored it when they calculated the mean.
Topic 8.4 Detecting chemical
reactions
Getting started
The answer will depend on the learner’s results,
and what their research uncovers.
Answers will depend on what the learners have
remembered and understood. The idea is to use
the answers to enable you to see what point the
learners are at.
Topic 8.3 Investigating acids and
alkalis
Reactants are the chemicals you start with in a
chemical reaction, whereas products are the chemicals
you end up with at the end of a chemical reaction.
Getting started
A chemical change is one in which new chemicals
are made, such as in a reaction between magnesium
and hydrochloric acid. When there is a physical
change no new chemicals are formed, but there is a
change from a solid to a liquid, for example.
Learners should be able to link pH 1-3 with
various shades of red; pH 4-6 orange and yellow;
pH 7 green; pH 8-10 shades of blue; pH 10-14
darker shades of blue/purple.
Questions
An acid has a pH of under 7, whereas an alkali
has a pH of over 7.
1
Activity: Testing gases
2
26
volume of acid; type and strength of acid;
volume of universal indicator, and volume of
powder added with each spatula.
They should wear safety glasses and take care
when handling strong acids. If they spill the acid
they should dilute it with water and if they get it on
their skin, they should wash it off at once and seek
medical help.
The variables that are the same are:
1
The limewater was colourless to start with and
as the carbon dioxide gas bubbled into the
tube of limewater, it started to go cloudy. The
more gas bubbled, the whiter and cloudier the
limewater became.
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2
When the glowing splint was placed in the test
tube of oxygen the splint relit and appeared to
bev properly alight.
8.3 a
Think like a scientist: Chemical
reactions or not?
Mg
b
Oxygen
c
Magnesium oxide
d
Magnesium chloride
The answers to the questions What do you
observe?, Has a chemical reaction taken place? and
What evidence do you have? will depend on the
experiment done and what the learners observe.
8.4 a
D
b
B
c
A
Check your progress
8.5 a
8.1
Physical change
Chemical change
melting chocolate
burning a piece of
wood
heating glass and
bending it
b
Green
c
The acid and the alkali were equal in
strength.
50 cm3 of alkali was neutralised by 50 cm3of
acid, so they must be the same strength. If
the acid was stronger, a smaller volume of
acid would have been needed to neutralise
the alkali.
cooking an egg
baking a cake
8.2 a
Hydrogen
b
Place a lighted splint in the gas. If it is
hydrogen it will burn with a loud ‘pop’.
c
Zinc sulfate and hydrogen
d
When there are no more bubbles of gas
produced you will know that all the
acid has reacted.
Purple or blue
d
Credit the use of ruler and pencil.
Appropriate scales and labelled axes.
Points accurately plotted.
Points connected appropriately.
Unit 9 Electricity
Topic 9.1 Flow of electricity
Activity: Modelling electron flow
Getting started
1
The cell
2
The same
3
No, it was not possible.
4
Electrons
5
a
Electrons move in one direction; or
electrons cannot be moving in one part
of the circuit and stationary in another
part; only the cell can move the electrons
b
Electrons would move at a steady speed,
whereas the string has a jerky movement;
a switch cannot be modelled in this
circuit; the movement of the string does
not do anything such as produce light or
make a sound, whereas current in a circuit
would do something.
1
Cell, wire
2
Current
Questions
1
Electrons
2
Current in a circuit is the movement of
electrons.
These particles have a negative charge.
These particles are attracted by the positive
terminal and repelled by the negative terminal
of a battery.
27
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Think like a scientist: Making
predictions about current
Think like a scientist: Drawing circuit
diagrams
1
The circuit diagrams should be:
2
The lamps will light; the correct prediction is
that they will all light at the same time; some
may predict that a lamp closer to the power
supply will light first, or that the lamps will
come on in some other sequence.
a
Any of these predictions, correct or not, is
testable.
b
Hypothesis
A
B
C
3
All the lamps light at the same time when the
switch is closed.
4
Electrons all start to move at the same time
when the switch is closed, so current starts to
flow all around the circuit at once.
Topic 9.2 Electrical circuits
Getting started
A
Components in the circuits can be in any order.
Activity: Circuit uses
Any possible uses for something that produces
light and sound at the same time, such as an
alarm or toy. They can be different because the
components can be connected in a different order.
a
Provide energy/make current flow.
b
Make the circuit complete or break the circuit/
make the current start or stop flowing.
c
Give out light (when current flows through).
Topic 9.3 Measuring the flow of
current
d
Make a sound (when current flows through).
Getting started
e
Measure current in the circuit.
1
Electrons
2
a
Ammeter
b
A
Questions
1
a
Questions
b
c
1
Amps/amperes (not the letter A alone)
2
a
2.5 A
b
5 A or 5.0 A
c
8 A or 8.0 A
d
1200 A
d
28
2
The wire is drawn through the lamp; wire
extends into cell; there is a gap at the corner
between the wires.
3
C
3
The greater the current in a circuit, the faster
the flow of electrons.
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CAMBRIDGE LOWER SECONDARY SCIENCE 7: TEACHER’S RESOURCE
4
A
B
2
To keep the cost low or silver would be too
expensive.
3
a
Plastic is an insulator; protect people from
electric shock.
b
Metal is a conductor; to allow current to
flow to the wire.
4
C
D
In a conductor, the electrons are free to move; in
an insulator, the electrons are not free to move.
Activity: Conduct or insulate?
Think like a scientist: Making
predictions about current
Circuit copied with arrows pointing around the
circuit away from the negative (shorter, thicker end
of the cell) towards the positive (longer, thinner
terminal).
1
Object
Conductor or
insulator
Reason
copper pipe
conductor
Copper is a
metal and
metals are
conductors
plastic comb insulator
Plastic is a
non-metal,
which is an
insulator
gold ring
conductor
Gold is a metal
and metals are
conductors
a
Learners can make any prediction here,
but only prediction A is correct.
wooden
ruler
insulator
b
The explanation should match with the
choice in a but does not have to be correct.
Wood is a nonmetal, which is
an insulator
glass
insulator
Glass is a nonmetal, which is
an insulator
steel spoon
conductor
Steel is a metal
and metals are
conductors
door key
conductor
Idea that electrons move to make current flow;
electrons cannot go faster in one part of this
circuit than in another.
A key is made
from metal
and metals are
conductors
pencil
insulator
Wood is an
insulator
Topic 9.4 Conductors and insulators
T-shirt
insulator
Cotton/fabric/
cloth is an
insulator
test tube
insulator
Glass is an
insulator
2
Should state that the current is the same at
each point.
3
If prediction B or C was made in question 1,
then these should be identified as incorrect; if
prediction A was made, it should be identified
as correct.
4
Getting started
When current flows, particles called electrons move.
In metals, these particles are free to move.
Questions
1
Examples of electrical conductors include
steel and aluminium.
Examples of electrical insulators include
plastic and wood.
29
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CAMBRIDGE LOWER SECONDARY SCIENCE 7: TEACHER’S RESOURCE
b
Think like a scientist: Conductor
or insulator?
1
To make sure the lamp lights or that the cell is
working.
2
The lamp will light if a conductor is placed
between the clips; current can flow through
the conductor and complete the circuit.
The lamp will not light if an insulator is placed
between the clips; current will not flow through
the insulator so the circuit will not be complete.
3
Activity: Model circuits
1
2
a
Table with item to be tested in the first column;
column to show whether the lamp lights.
Conclusion as to whether item is a conductor
or insulator could be given as another column
in the table or separately.
4
Metals conduct and non-metals do not conduct.
5
a
Some metals are painted; paint is an
insulator.
b
Scrape off some of the paint.
or
Topic 9.5 Adding or removing
components
2
b
3
Getting started
1
Remove one of the cells; add another
lamp.
a
Amps/amperes
b
A
a
Current in a circuit is the flow of particles
called electrons.
b
As current increases, the flow of these
particles gets faster.
Adding a cell or removing a lamp will
increase the current.
a
or
Questions
1
C
2
a
B
b
Increasing the number of cells in a circuit
will increase the current.
3
4
30
b
4
Adding a lamp or removing a cell will
decrease the current.
If the new circuit has:
a
C
•
An equal number of cells and lamps then
the current will be the same.
b
Decreasing the number of lamps in a
circuit will increase the current.
•
a
Add another cell; remove one of the
lamps.
A larger number of cells and the same
number of lamps then the current will be
larger.
•
A larger number of lamps and the same
number of cells then the current will be
smaller.
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Think like a scientist: Measuring
current
9.3 B
1
In a table with columns headed number of
cells, number of lamps, current in amps.
9.5 a
2
Table completed with values of current
only in the table body, units (A) in column
header.
b
3
a
b
Increasing the number of lamps decreased
the current (or vice versa); increasing the
number of cells increased the current (or
vice versa).
Only done with one circuit; only done
with lamps; the total length of the wires
also changed.
9.4 C and D
c
Electrons
b
Negative
c
Away from the negative and towards
the positive.
Cell
ii
Switch (open)
iii
Lamp
iv
Ammeter
v
Buzzer
A conductor allows electron flow.
In a conductor, electrons are free to move.
An insulator inhibits electron flow.
In an insulator, electrons are not free to move.
9.6 a
Series circuit correctly drawn.
Circuit can have more than two cells or
fewer than three lamps or both.
9.1 a
i
The object is an insulator.
The cell has stopped working/the lamp
has stopped working/a wire is broken.
Check your progress
9.2 a
A conductor allows electrons to flow
and completes the circuit
b
Series circuit correctly drawn.
Circuit can have fewer than two cells
or more than three lamps or both.
A
b
Switch can be closed if obvious.
31
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